生理损伤后的肌肉修复依赖于核迁移进行细胞重建。

Muscle repair after physiological damage relies on nuclear migration for cellular reconstruction.

机构信息

Department of Experimental & Health Sciences, University Pompeu Fabra, CIBERNED, 08003 Barcelona, Spain.

Instituto de Medicina Molecular, Faculdade de Medicina da Universidade de Lisboa, 1649-028 Lisboa, Portugal.

出版信息

Science. 2021 Oct 15;374(6565):355-359. doi: 10.1126/science.abe5620. Epub 2021 Oct 14.

DOI:10.1126/science.abe5620

PMID:34648328

Abstract

Regeneration of skeletal muscle is a highly synchronized process that requires muscle stem cells (satellite cells). We found that localized injuries, as experienced through exercise, activate a myofiber self-repair mechanism that is independent of satellite cells in mice and humans. Mouse muscle injury triggers a signaling cascade involving calcium, Cdc42, and phosphokinase C that attracts myonuclei to the damaged site via microtubules and dynein. These nuclear movements accelerate sarcomere repair and locally deliver messenger RNA (mRNA) for cellular reconstruction. Myofiber self-repair is a cell-autonomous protective mechanism and represents an alternative model for understanding the restoration of muscle architecture in health and disease.

摘要

骨骼肌再生是一个高度同步的过程，需要肌肉干细胞（卫星细胞）的参与。我们发现，运动引起的局部损伤会激活肌纤维的自我修复机制，该机制在小鼠和人类中不依赖于卫星细胞。小鼠肌肉损伤会引发涉及钙、Cdc42 和蛋白激酶 C 的信号级联反应，通过微管和动力蛋白将肌核吸引到损伤部位。这些核的运动加速了肌节的修复，并局部传递用于细胞重建的信使 RNA（mRNA）。肌纤维的自我修复是一种细胞自主的保护机制，为理解健康和疾病状态下肌肉结构的恢复提供了一种替代模型。

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生理损伤后的肌肉修复依赖于核迁移进行细胞重建。

Muscle repair after physiological damage relies on nuclear migration for cellular reconstruction.

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